FA Atlas Book

fa Diagnostic Atlas

A Retinal Reference Guide

Building The Retina Company

fa Diagnostic Atlas

A Retinal Reference Guide

Optos devices produce ultra-widefield (UWF™), high resolution images ( opto map ® ) of approximately 82% (200°) of the retina. A single opto map can document the retina from the central pole through the vortex vessels; no other technology can capture this view in a single image. opto map images provide more clinical information which facilitates early detection and more eƒective management of retinal diseases. Retinal imaging can also uncover systemic diseases such as hypertension and certain cancers. opto map color images consist of two channels of information, a red channel (635nm) which visualizes the choroidal layer and a green channel (532nm) which visualizes the retinal pigment epithelium (RPE). opto map af images are captured using the green wavelength (532nm) and visualize the function of the RPE. opto map fa images uses the blue wavelength (488nm) to capture the circulation of the retina. A fluorescein angiogram is used to analyze the integrity of the retinal vascular system, looking for leakages, blockages, neovascularization and vascular abnormalities. The opto map fa Diagnostic Atlas: A Retinal Reference Guide is designed to illustrate how diƒerent pathologies are visualized on UWF fluorescein angiogram.

Reference for Definitions Dictionary of Eye Terminology. Sixth Edition. 2012. Barbara Cassin and Melvin L. Rubin, MD. Triad Communications, Inc.

Fluorescein and Indocyanine Green Angiography: Technique and Interpretation. Second Edition. 1997 Joseph W. Berkow, MD; Robert W. Flower; David H. Orth, MD; James S. Kelley, MD American Academy of Ophthalmology The Retinal Atlas. Second Edition. 2017 Bailey Freund, MD; David Sarraf, MD; Wiliam F. Mieler, MD; Lawrence A. Yannuzzi, MD Elsevier

fa Diagnostic Atlas

A Retinal Reference Guide

fa Diagnostic Atlas

A Retinal Reference Guide

Fluorescein Angiography

opto map color composite images provide a structural image of the retina. opto map consist of two channels of information, a red channel (635nm) which visualizes the choroidal layer and a green channel (532nm) which visualizes the retinal pigment epithelium (RPE). opto map af images are captured using the green wavelength (532nm) and visualize the health and function of the RPE. opto map fa images are captured using the blue wavelength (488nm) to visualize the circulation of the retina vasculature. Fluorescein sodium (C20H10Na2O5), resorcinolphthalein sodium, is injected intravenously into a patient’s arm. When the dye is injected and the retina is illuminated with blue light, the dye fluoresces and exciter and barrier filters are put in place to allow only the fluorescent light to be imaged. The dye absorbs the blue light with an excitation at 465-490nm (blue) and the dye emits the yellow-green wavelength from 520-530nm (yellow-green).

Upon injection, images are captured and each image has a timestamp to track the circulation time of the retinal vessels.

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Fluorescein Angiography Phases Phase

Fluorescein Angiography

Timing 10-12 seconds

Description Choroid and choriocapillaris fill. Choroidal retinal arteries fill with the choroid at the same time.

Choroidal Flush/ Pre-Arterial Phase

choroid fills 1 second before the dye enters the retinal circulation.

Arterial

13-15 second

Arteries begin to fill.

Arterial 15 Seconds

Choroidal 10 Seconds

Arterial-Venous Phase

Complete filling of the arteries and capillaries. Laminar flow seen in the veins.

Venous Phase

30-35 seconds

Veins are completely filled.

Arterial-Venous 19 Seconds

Venous 33 Seconds

Recirculation Phase

2-4 minutes

Veins and arteries are equally bright.

Late Phase

5-10 minutes

Staining around the optic disc.

Recirculation 3:11 Minutes

Late 7:51 Minutes

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fa Diagnostic Atlas

A Retinal Reference Guide

Retinal Anatomy

The Retina is the light-sensitive layer of tissue that lines the inside of the eye and sends visual messages through the optic nerve to the brain. The Choroid is the vascular (major blood vessel) layer of the eye lying between the retina and the sclera. It provides nourishment to outer layers of the retina.

Vein is any of the tubes forming part of the blood circulation system of the body, carrying in most cases oxygen-depleted blood toward the heart.

Artery is any of the muscular-walled tubes forming part of the circulation system by which blood (mainly that which has been oxygenated) is conveyed from the heart to all parts of the body.

Macula is a small central area of the retina surrounding the fovea; area of acute central vision.

Optic Disc, Optic Nerve Head (ONH) is the ocular end of the optic nerve. Denotes the exit of retinal nerve fibers from the eye and entrance of blood vessels to the eye.

Fovea is the central pit in the macula that produces sharpest vision. It contains a high concentration of cones and no retinal blood vessels.

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Retinal Anatomy

Fluorescein Angiogram of a Healthy Retina

Vein will fill after the arteries and will appear bright once the dye enters.

Artery will fill first and will appear bright once the dye enters.

Arteriovenous Crossings

are areas where the artery and vein meet within the retina – these however can result in occlusions which can be observed on an FA .

Optic Disc, Optic Nerve Head will appear uniformly bright once the dye circulates. Uneven brightness may indicate edema, neovascularization or the presence of drusen.

Macula will appear dark on a normal FA as this is an avascular zone.

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fa Diagnostic Atlas

A Retinal Reference Guide

Hyperfluorescence

Hyperfluorescence

is an increase in the level of fluorescence caused by an abnormality in the RPE. A structural abnormality may allow either the fluorescein dye to pass from the choroid into or under the retina or the fluorescent light from the dye to shine through the pigment epithelium. Autofluorescence – Occurs when tissue fluoresces without the assistance of a fluorescent dye. Window/Transmission - An area of the RPE that no longer has su¬cient melanin to block fluorescence from the underlying choriocapillaris (ie. pigment epithelial window defect, atrophy or drusen).

Optic Nerve Head Drusen

Autofluorescence without Fluorescein Dye

Leakage - The passage of fluorescein dye through a membrane that normally cannot be penetrated (ie capillary leakage, aneurysm or neovascularization). Pooling - The accumulation of fluorescein dye in what is typically tissue space (ie. cystoid macular edema, sensory retinal detachment or pigment epithelial detachment). Staining - The accumulation of fluorescein within tissue substance.

Chorioretinal Atrophy Window defect from Atrophy

Proliferative Diabetic Retinopathy

Leakage from Neovascularization

Central Serous Retinopathy

Stargardts Disease

Staining of Lesions and Optic Disc

Pooling from a serous detachment

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Hypofluorescence

Hypofluorescence

Retinal Vein Occlusion

is a lower level of fluorescence (seen as darker patches) caused by either the blockage of light from normally fluorescing structures or inadequate circulation in an area of the retina or choroid.

Filling defect – An area of poor fluorescence caused by a abnormal circulation. This can be non-perfusion or ischemia.

Filling defect from non-perfusion

Proliferative Diabetic Retinopathy

Blocking defect – An absence or marked decrease of fluorescence observed in an area that would normally show fluorescence. This can be caused by the presence of opaque material such as blood or pigment in a nevus.

Blocking defect from hemorrhage

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fa Diagnostic Atlas

A Retinal Reference Guide

Diabetic Retinopathy (DR)

Diabetic Retinopathy

is a series of progressive retinal changes that can result from long-standing diabetes mellitus. Early stage DR is non-proliferative (NPDR). It may advance to proliferative diabetic retinopathy (PDR), which includes neovascularization and fibrous tissue which can be visualized on FA.

Peripheral non-perfusion

Peripheral non-perfusion

Neovascularization

Recent research has established the importance of monitoring the retinal periphery (area outside of ETDRS) for early signs of DR. opto map imaging has demonstrated that diabetic lesions occur in the retinal periphery in up to 50% of eyes and these lesions result in a more severe grade of retinopathy in 10% of eyes and a 4.7 fold increased risk of progression to PDR. 2

The gold standard for classification of diabetic retinopathy is stereoscopic color fundus photographs in 7 standard fields, as defined by the Early Treatment Diabetic Retinopathy Study (ETDRS) group (area captured shown in circles above). opto map images have been found equivalent in quality and may be used in place of ETDRS in managing DR. 1

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1. Silva et al. Nonmydriatic Ultrawide Field Retinal Imaging Compared with Dilated Standard 7-Field 35-mm Photography and Retinal Specialist Examination for Evaluation of Diabetic Retinopathy. American Journal Of Ophthalmology, 2012 2. Silva et al Peripheral Lesions Identified on Ultrawide Field Imaging Predict Increased Risk of Diabetic Retinopathy Progression over 4 Years. Ophthalmology, 2015

Retinal Hemorrhage

Diabetic Retinopathy

is the abnormal bleeding or leakage of the blood vessels in the retina often seen in conditions such as diabetic retinopathy. Retinal hemorrhage can be caused by injury or disease resulting in temporary or permanent loss of vision. Dot and blot hemorrhages are tiny round hemorrhages in the retina, usually in the outer plexiform layer.

Spokes of cortical cataract will create shadows

Retinal hemorrhages

NVD

Vitreous hemorrhage

Hypofluorescent blocking from hemorrhages

Vitreous Hemorrhage is blood in the vitreous that may result from blunt eye trauma, blood leakage from neovascularization, vitreous detachment or a retinal tear. It is also called a vitreal bleed and typically associated with diabetes.

A vitreous hemorrhage will hypofluoresce on a fluorescein angiogram and will appear as blockage.

Blocking from a vitreous hemorrhage

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fa Diagnostic Atlas

A Retinal Reference Guide

Neovascularization

Diabetic Retinopathy

is the abnormal formation of new blood vessels, usually in or under the retina or on the iris surface. Neovascularization of the optic disc (NVD) are new vessels growths at the optic disc and neovascularization elsewhere (NVE) occurs outside of the optic disc. Neovascularization will cause hyperfluoresce on a opt omap fa and will appear similar to leakage.

Zoomed in view

NVD

NVD

NVE

NVE

NVD

NVD

Previous laser spots

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Microaneurysms

Diabetic Retinopathy

are focal dilation of the venous end of retinal capillaries. These appear in the retinal vessels as a small round red spot resembling a tiny, deep hemorrhage.

PDR

Microaneurysms

Zoomed in view

PDR

NVD

NVE

Venous Beading is a pattern of nodular irregularity in the retinal venous blood vessel walls that are typically next to areas of non-perfusion. This can be found in Coats’ disease and diabetic retinopathy.

Microaneurysms

Microaneurysms

Microaneurysms

Previous laser spots

NVD

Venous beading

Venous beading

Non-perfusion

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fa Diagnostic Atlas

A Retinal Reference Guide

is caused by inadequate blood supply to a body part caused by partial blockage of a blood vessel. If not reversed, surrounding tissue may die from lack of nutrients. It may result in retinal edema, cotton-wool spots, microaneurysms, venous engorgement and neovascularization . Ischemia, Non-Perfusion

Diabetic Retinopathy

Zoomed in view

NVE

Non-perfusion

Neovascular fronds

opto map fa has been demonstrated to show 3.9 times more non-perfusion than traditional ETDRS. 1 Another study concluded that non-perfusion in DR begins in the midperipheral retina and ischemia, thus accounting for the increased risk of progression. 2

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1. Kiss et al. Ultra Wide Field Angiography Improves the Detection and Classification of Diabetic Retinopathy. Retina. 2012 2. Aiello et al. Diabetic Retinopathy Severity and Peripheral Lesions Are Associated with Non-perfusion on Ultrawide Field Angiography. Ophthalmology, 2015.

Diabetic Macular Edema (DME)

Diabetic Retinopathy

is retinal swelling and cyst formation in the macular area. It usually results in temporary decreased or permanent vision loss. DME will hyperfluoresce as pooling on a fluorescein angiogram.

DME Exudates point to an area of leakage on a fluorescein angiogram such as DME

opto map fa findings have been correlated to traditional FA imaging methods macular edema and signs of macular ischemia on SD-OCT. 1

Exudates

Exudates are proteins or lipids that leak from blood vessels into the surrounded tissue or space.

Early FA phase may show no edema No DME

Edema appears in the late phase of an FA as hyperfluorescent pooling DME

4 minutes

42 seconds

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1. Tsui et al. Ultra Wide Field Fluorescein Angiography Can Detect Macular Pathology in Central Retinal Vein. OSLI. 2012.

fa Diagnostic Atlas

A Retinal Reference Guide

Intraretinal Microvascular Abnormalities (IRMA)

Diabetic Retinopathy

is a development of abnormal blood vessels with tiny aneurysms along with connections (shunts) from arterioles to venules. They occur in hypertensive and diabetic retinopathy, when blood is unable to flow through the normal capillaries, resulting in retinal anoxia and possible edema.

PDR

PDR

IRMA

Cotton wool spots

Hard exudates

Non-perfusion

Hemorrhages

PDR treated with PRP

Pan-Retinal Photocoagulation (PRP) is used to treat the vascular abnormalities associated with diabetic retinopathy. Laser photocoagulation uses the heat from a laser to seal or destroy abnormal, leaking blood vessels in the retina. opto map imaging can be used to help determine areas that need laser treatment.

Non-perfusion

Leakage

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Retinal Artery Occlusion

Retinal Artery Occlusion

occurs when there is an obstruction to the blood flow in the arteries. It is found in elderly patients who have arteriorsclerotic disease or younger patient whom have an embolic obstruction of the artery or its branches.

19 seconds

27 seconds

2:26

5:42

44 seconds

opto map fa images show delayed filling in Branch Retinal Artery Occlusion in a fluorescein angiography series.

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fa Diagnostic Atlas

A Retinal Reference Guide

Retinal Vein Occlusion

Retinal Vein Occlusion

is a retinal vascular disorder that can involve the central retinal vein, a major branch of the central vein, or any part of a branch. Fluorescein circulation is delayed showing areas of non-perfusion and the point of the occlusion can usually be seen with angiography. Vessel leakage and staining can occur in the vessels extending oƒ the region of occlusion. Cystoid macular edema (CME) can also be present and visual acuity is greatly decreased.

CRVO with cystoid macular edema

Central Retinal Vein Occlusion (CRVO)

Central Retinal Vein Occlusion (CRVO)

Branch Retinal Vein Occlusion (BRVO)

Branch Retinal Vein Occlusion (BRVO)

Branch Retinal Vein Occlusion (BRVO)

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Ocular Ischemic Syndrome

Retinal Vein Occlusion

is a retinal vascular disorder, which is a result of carotid artery insu¬ciency. Delayed perfusion of the retina and choroidal circulation, macular edema and disc staining are seen with fluorescein angiography.

Hemi-Retinal Vein Occlusion (HRVO)

Central Retinal Vein Occlusion (CRVO)

Flame shaped hemorrhages and hypofluorescence from non-perfusion due to delayed filling in the retina.

Non-perfusion is across the entire retina.

Retinal Vein Occlusion (RVO)

Ocular Ischemic Syndrome

Hypofluorescence in the periphery due to delayed filling.

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fa Diagnostic Atlas

A Retinal Reference Guide

Sickle Cell Retinopathy

Sickle Cell Retinopathy

is a hereditary blood disorder that causes systemic problems relating to localized clumping of blood cells. In the eye, retinal changes occur such as: neovascularization, sea-fans, arterial blockage, capillary closure, angioid streaks, and retinal deposits. opto map fa is used to show extent of peripheral vascular changes.

Sea-fan neovascularization

Non-perfusion

Peripheral non-perfusion observed on opto map fa is greater in those with sickle cell disease and proliferative retinopathy and has been correlated with macular vessel density on OCTA 1 .

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1. Han et al. Correlation of ultra-widefield fluorescein angiography and OCT angiography in sickle cell retinopathy. Ophthalmology Retina. 2017.

Central Serous (Chorio) Retinopathy (CSR, CSCR)

Central Serous Retinopathy

is a blister-like elevation of sensory retina in the macula (area of central vision), with localized detachment from the pigment epithelium. Results in reduction and/or distortion of vision that usually recovers within a few months.

opto map fa is used to identify the source of leakage and whether it is from a single or multiple sources. Color imaging alone can be challenging to pinpoint the area of leakage from CSR.

Area of hyperfluorescence where fluid leakage originates.

Area of hyperfluorescence where fluid-filled “gutters” appear.

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fa Diagnostic Atlas

A Retinal Reference Guide

Age-Related Macular Degeneration (AMD, ARMD)

Age-Related Macular Degeneration is a group of conditions that include deterioration of the macula, resulting in loss of sharp central vision. Two general types: dry and wet. Dry is usually evident as a disturbance of macular pigmentation and deposits of yellowish material under the pigment epithelial layer in the central retinal zone. Wet AMD is abnormal new blood vessel growth under the retina which leaks fluid and blood, further disturbing macular function. opto map fa is used to rule out progression to wet AMD.

Wet AMD

Drusen in the periphery appear as hyperfluorescence due to staining

Age-related macular degeneration is best managed with multimodal imaging and may be more than a “macular” condition but one that involves the entire retina. 1

Hypofluorescent blockage from hemorrhage

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1. Friberg. Peripheral Retinal Changes Associated with Age-Related Macular Degeneration in the Age-Related Eye Disease Study 2. Ophthalmology. 2016.

is associated with AMD and there are two types: classic and occult. Classic will appear in the early phase with a well-defined area of hyperfluorescence. Occult may be poorly defined and areas of neovascularization are fuzzy, bright hyperfluorescent regions. Choroidal Neovascular Membrane (CNV, CNVM)

Age-Related Macular Degeneration

opto map fa imaging has been validated to have equivalent resolution in the central pole to traditional imaging methods and ETDRS. 2

A recent study, looked at AMD subjects using UWF fluorescein angiography and found that 84.59% had hyperfluorescent characteristics in the periphery of which the main contributors were drusen, paving stone, and atrophic areas. 2

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1. Friberg. Morphologic and Angiographic Peripheral Retinal Changes in Patients with Age-related Macular Degeneration. Ophthalmology. 2017. 2. Tsui. Ultra Wide Field Fluorescein Angiography Can Detect Macular Pathology in Central Retnal Vein Occlusion. 2012.

fa Diagnostic Atlas

A Retinal Reference Guide

Uveitis

Inflammatory Disease

is inflammation of any of the structures of the uvea: iris, ciliary body or choroid. opto map fa is used to look for localized and diƒuse leakage throughout the retina. Images may appear slightly blurry due to inflammatory cells in the vitreous, called vitreous haze.

opto map fa shows hyperfluorescent staining of the peripheral lesions seen in uveitis. One study showed combined ultra-widefield color and opto map fa altered management in 48% of patients .1

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1. Campbell et al. Wide-field Retinal Imaging in the Management of Noninfectious Posterior Uveitis American Journal of Ophthalmology 2012

Vasculitis

Inflammatory Disease

is the inflammation of a blood or lymph vessel. Fluorescein angiography is used to identify these areas of leakage or vessel staining. opto map fa is used to identify the level of activity pre and post-treatment.

Vessel staining

Leakage of the vessels

Retinitis and choroiditis

opto map fa has been found to detect up to 59% more changes associated with vasculitis than conventional imaging and exam. It has also been reported that the changes seen on opto map fa has impacted treatment decisions up to 65% of the time. 1,2

1. Leder et al. Ultra-wide-field retinal imaging in the management of non-infectious retinal vasculitis. Journal of Ocular Inflammation, 2013.

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2. Stanga et al. Ultra-widefield fundus fluorescein angiography in the diagnosis and management of retinal vasculitis. Eye. 2017.

fa Diagnostic Atlas

A Retinal Reference Guide

Coats’ Disease

Pediatric Disease

is a chronic, progressive retinal disorder characterized by massive white exudates under the retina, with eventual detachment and glaucoma. This disorder is associated with malformed, tortuous retinal blood vessels and aneurysmal dilatations.

Aneurysmal changes, telangiectatic vasculature, and peripheral non-perfusion in the far temporal periphery. Coat’s Disease

Coat’s Disease

Familial Exudative Vitreoretinopathy (FEVR) is a hereditary condition characterized by fluid leakage from the retina, and vitreo-retinal membrane formation with new blood vessels.

Extensive peripheral leakage which is correlated with central retinal vascular changes. FEVR

FEVR

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Retinopathy of Prematurity (ROP)

Pediatric Disease

is a retinal vasculature disorder that aƒects severely premature babies, resulting from incomplete peripheral vascularization at birth followed by abnormal vascularization. opto map fa is used to determine the extent of vasculature present to grade the level of ROP and monitor response to treatment.

ROP

ROP

opto map can obtain high-quality images in babies with retinopathy of prematurity (ROP) down to 34 weeks. 1 opto map has been shown to capture up to 75% more abnormal peripheral pathology in pediatric patients unseen by conventional imaging methods in ROP. 1,2

Best Disease

Best Disease

Best Disease is a juvenile disease and vitelliform macular degeneration is an inherited eye condition. Best disease can start to cause changes at the back of the eye between the ages of 3 to 15 although it does not usually aƒect vision until later on in life.

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1. Patel et al. Non-contact Ultra-widefield imaging of Retinopathy of Prematurity Using the Optos dual Wavelength scanning Laser Ophthalmoscope. Eye. 2013. 2. Kang et al. Ultra-widefield imaging for the management of pediatric retinal diseases. Journal of Pediatric Ophthalmology and strabismus. 2013.

fa Diagnostic Atlas

A Retinal Reference Guide

Choroidal Melanoma

Tumors

is a form of malignant tumor derived from pigment cells initiated in the choroid. If an ocular tumor is suspected, opto map fa can aid in determining the characteristics of the retinal circulation at or around the tumor mass as well as establishing if the tumor is leaking dye or blocking fluorescence.

Multi-modal opto map fa imaging allows for documentation and monitoring of the extensive retinal changes and patterns of vascular damage that can be associated with choroidal tumors and their treatment. 1

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1. McCannel et al. New Ultra-Wide-Field Angiographic Grading Scheme for Radiation Retinopathy after Iodine-125 Brachytherapy for Uveal Melanoma . Retina. 2017.

Tumors

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fa Diagnostic Atlas

A Retinal Reference Guide

Image Acknowledgements

David Brown, MD Netan Choudhry, MD Mandar Joshi, MD George Ko, MD Rahul Mandinga, MD Charles Newell, MD Quan Nguyen, MD Jeƒrey Rubin, MD Srinivas Sadda, MD Michael Singer, MD Paulo Stanga, MD Yoshihiro Yonekawa, MD

The opto map fa Diagnostic Atlas: A Retinal Reference Guide was created by the Optos Clinical Team and reviewed by Rishi Singh, MD

Contact clinical@optos.com for any additional educational questions.

Optos is a leading provider of devices that enable eye care professionals to enhance their patient care. Our ultra-widefield (UWF™) retinal imaging devices image 82% or 200° of the retina – in a single capture – something no other retinal imaging device is capable of doing. opto map images facilitate the early detection, management, and eƒective treatment of disorders and diseases evidenced in the retina. Additionally, opto map is the only clinically-validated ultra-widefield retinal image with more than 500 published studies incorporating opto map imaging for diagnosis, treatment planning, and patient engagement. Optos is committed to continue to deliver new products and software that supports opto map as a standard of care, helping eye care professionals around the world save sight and save lives.

Optos, Inc. 500 Nickerson Road Suite 201 Marlborough, MA 01752 USA Call Toll-free (US & Canada): 800-854-3039 Outside of the US: 508 787 1400 usinfo@optos.com

Optos plc Queensferry House Carnegie Campus Enterprise Way

Optos Australia 10 Myer Court Beverley

South Australia 5009 Tel: +61 8 8444 6500 auinfo@optos.com

Dunfermline, Fife Scotland KY11 8GR Tel: +44 (0)1383 843350 ics@optos.com

Building The Retina Company

© 2018 Optos. All rights reserved. Optos, optos and optomap are registered trademarks of Optos plc. Registered in Scotland Number: SC139953 Registered O¬ce: Queensferry House, Carnegie Campus, Dunfermline, Fife KY11 8GR, UK

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